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The following code converts a ResultSet to a JSON string using JSONArray and JSONObject.

import org.json.JSONArray;
import org.json.JSONObject;
import org.json.JSONException;

import java.sql.SQLException;
import java.sql.ResultSet;
import java.sql.ResultSetMetaData;

public class ResultSetConverter {
  public static JSONArray convert( ResultSet rs )
    throws SQLException, JSONException
  {
    JSONArray json = new JSONArray();
    ResultSetMetaData rsmd = rs.getMetaData();

    while(rs.next()) {
      int numColumns = rsmd.getColumnCount();
      JSONObject obj = new JSONObject();

      for (int i=1; i<numColumns+1; i++) {
        String column_name = rsmd.getColumnName(i);

        if(rsmd.getColumnType(i)==java.sql.Types.ARRAY){
         obj.put(column_name, rs.getArray(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.BIGINT){
         obj.put(column_name, rs.getInt(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.BOOLEAN){
         obj.put(column_name, rs.getBoolean(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.BLOB){
         obj.put(column_name, rs.getBlob(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.DOUBLE){
         obj.put(column_name, rs.getDouble(column_name)); 
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.FLOAT){
         obj.put(column_name, rs.getFloat(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.INTEGER){
         obj.put(column_name, rs.getInt(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.NVARCHAR){
         obj.put(column_name, rs.getNString(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.VARCHAR){
         obj.put(column_name, rs.getString(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.TINYINT){
         obj.put(column_name, rs.getInt(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.SMALLINT){
         obj.put(column_name, rs.getInt(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.DATE){
         obj.put(column_name, rs.getDate(column_name));
        }
        else if(rsmd.getColumnType(i)==java.sql.Types.TIMESTAMP){
        obj.put(column_name, rs.getTimestamp(column_name));   
        }
        else{
         obj.put(column_name, rs.getObject(column_name));
        }
      }

      json.put(obj);
    }

    return json;
  }
}
  • Is there a faster way?
  • Is there a way that uses less memory?

Thank you!

share|improve this question
1  
A different implementation code.google.com/p/bonex-homerunning/source/browse/trunk/… –  Leif Gruenwoldt Oct 20 '11 at 20:40
    
implementation for java.sql.Types.ARRAY didn't work for me using postgresql (array got put as a String using "{...}". Ended up changing line "obj.put(column_name, rs.getArray(column_name));" to "Array array = rs.getArray(column_name); if ( array != null ) obj.put(column_name, new JSONArray(array.getArray()));" –  molecular Apr 29 '13 at 15:23
    
If performance is a major issue, you shouldn't use this JSON API but rather use a streaming library that just writes JSON without needing to create memory objects of all the data (where you can look back/find stuff in the tree). That said, I would make sure you actually have a performance issue before doing that. –  Sebastiaan van den Broek Oct 5 '13 at 9:56
    
There are an error in your snippet. java.sql.Types.BIGINT is 8 bytes size, so it must be read with rs.getLong() not rs.getInt() –  polarfish Feb 6 at 8:28

8 Answers 8

up vote 7 down vote accepted

The JIT Compiler is probably going to make this pretty fast since it's just branches and basic tests. You could probably make it more elegant with a HashMap lookup to a callback but I doubt it would be any faster. As to memory, this is pretty slim as is.

Somehow I doubt this code is actually a critical bottle neck for memory or performance. Do you have any real reason to try to optimize it?

share|improve this answer
    
I'm putting the source code in an open-source framework, so I do not know what it will be used for. Therefore I am trying to make it as efficient as possible. –  Devin Dixon Jun 29 '11 at 1:55
    
@DevinDixon: is the framework available? Is there anything like the code in your question already available in an open source repo somewhere? –  user396070 Oct 17 '13 at 6:00

Two things that will make this faster are:

Move your call to rsmd.getColumnCount() out of the while loop. The column count should not vary across rows.

For each column type, you end up calling something like this:

obj.put(column_name, rs.getInt(column_name));

It will be slightly faster to use the column index to retrieve the column value:

obj.put(column_name, rs.getInt(i));
share|improve this answer

I think there's a way to use less memory (a fixed and not linear amount depending on data cardinality) but this imply to change the method signature. In fact we may print the Json data directly on an output stream as soon as we fetch them from the ResultSet: the already written data will be garbage collected since we don't need an array that keeps them in memory.

I use GSON that accepts type adapters. I wrote a type adapter to convert ResultSet to JsonArray and it looks very like to your code. I'm waiting the "Gson 2.1: Targeted Dec 31, 2011" release which will have the "Support for user-defined streaming type adapters". Then I'll modify my adapter to be a streaming adapter.


Update

As promised I'm back but not with Gson, instead with Jackson 2. Sorry to be late (of 2 years).

Preface: The key to use less memory of the result itsef is in the "server side" cursor. With this kind of cursors (a.k.a. resultset to Java devs) the DBMS sends data incrementally to client (a.k.a. driver) as the client goes forward with the reading. I think Oracle cursor are server side by default. For MySQL > 5.0.2 look for useCursorFetch at connection url paramenter. Check about your favourite DBMS.

1: So to use less memory we must:

  • use server side cursor behind the scene
  • use resultset open as read only and, of course, forward only;
  • avoid to load all the cursor in a list (or a JSONArray) but write each row directly on an output line, where for output line I mean an output stream or a writer or also a json generator that wraps an output stream or a writer.

2: As Jackson Documentation says:

Streaming API is best performing (lowest overhead, fastest read/write; other 2 methods build on it)

3: I see you in your code use getInt, getBoolean. getFloat... of ResultSet without wasNull. I expect this can yield problems.

4: I used arrays to cache thinks and to avoid to call getters each iteration. Although not a fan of the switch/case construct, I used it for that int SQL Types.

The answer: Not yet fully tested, it's based on Jackson 2.2:

<dependency>
    <groupId>com.fasterxml.jackson.core</groupId>
    <artifactId>jackson-databind</artifactId>
    <version>2.2.2</version>
</dependency>

The ResultSetSerializer object instructs Jackson on how to serialize (tranform the object to JSON) a ResultSet. It uses the Jackson Streaming API inside. Here the code of a test:

SimpleModule module = new SimpleModule();
module.addSerializer(new ResultSetSerializer());

ObjectMapper objectMapper = new ObjectMapper();
objectMapper.registerModule(module);

[ . . . do the query . . . ]
ResultSet resultset = statement.executeQuery(query);

// Use the DataBind Api here
ObjectNode objectNode = objectMapper.createObjectNode();

// put the resultset in a containing structure
objectNode.putPOJO("results", resultset);

// generate all
objectMapper.writeValue(stringWriter, objectNode);

And, of course, the code of the ResultSetSerializer class:

public class ResultSetSerializer extends JsonSerializer<ResultSet> {

    public static class ResultSetSerializerException extends JsonProcessingException{
        private static final long serialVersionUID = -914957626413580734L;

        public ResultSetSerializerException(Throwable cause){
            super(cause);
        }
    }

    @Override
    public Class<ResultSet> handledType() {
        return ResultSet.class;
    }

    @Override
    public void serialize(ResultSet rs, JsonGenerator jgen, SerializerProvider provider) throws IOException, JsonProcessingException {

        try {
            ResultSetMetaData rsmd = rs.getMetaData();
            int numColumns = rsmd.getColumnCount();
            String[] columnNames = new String[numColumns];
            int[] columnTypes = new int[numColumns];

            for (int i = 0; i < columnNames.length; i++) {
                columnNames[i] = rsmd.getColumnLabel(i + 1);
                columnTypes[i] = rsmd.getColumnType(i + 1);
            }

            jgen.writeStartArray();

            while (rs.next()) {

                boolean b;
                long l;
                double d;

                jgen.writeStartObject();

                for (int i = 0; i < columnNames.length; i++) {

                    jgen.writeFieldName(columnNames[i]);
                    switch (columnTypes[i]) {

                    case Types.INTEGER:
                        l = rs.getInt(i + 1);
                        if (rs.wasNull()) {
                            jgen.writeNull();
                        } else {
                            jgen.writeNumber(l);
                        }
                        break;

                    case Types.BIGINT:
                        l = rs.getLong(i + 1);
                        if (rs.wasNull()) {
                            jgen.writeNull();
                        } else {
                            jgen.writeNumber(l);
                        }
                        break;

                    case Types.DECIMAL:
                    case Types.NUMERIC:
                        jgen.writeNumber(rs.getBigDecimal(i + 1));
                        break;

                    case Types.FLOAT:
                    case Types.REAL:
                    case Types.DOUBLE:
                        d = rs.getDouble(i + 1);
                        if (rs.wasNull()) {
                            jgen.writeNull();
                        } else {
                            jgen.writeNumber(d);
                        }
                        break;

                    case Types.NVARCHAR:
                    case Types.VARCHAR:
                    case Types.LONGNVARCHAR:
                    case Types.LONGVARCHAR:
                        jgen.writeString(rs.getString(i + 1));
                        break;

                    case Types.BOOLEAN:
                    case Types.BIT:
                        b = rs.getBoolean(i + 1);
                        if (rs.wasNull()) {
                            jgen.writeNull();
                        } else {
                            jgen.writeBoolean(b);
                        }
                        break;

                    case Types.BINARY:
                    case Types.VARBINARY:
                    case Types.LONGVARBINARY:
                        jgen.writeBinary(rs.getBytes(i + 1));
                        break;

                    case Types.TINYINT:
                    case Types.SMALLINT:
                        l = rs.getShort(i + 1);
                        if (rs.wasNull()) {
                            jgen.writeNull();
                        } else {
                            jgen.writeNumber(l);
                        }
                        break;

                    case Types.DATE:
                        provider.defaultSerializeDateValue(rs.getDate(i + 1), jgen);
                        break;

                    case Types.TIMESTAMP:
                        provider.defaultSerializeDateValue(rs.getTime(i + 1), jgen);
                        break;

                    case Types.BLOB:
                        Blob blob = rs.getBlob(i);
                        provider.defaultSerializeValue(blob.getBinaryStream(), jgen);
                        blob.free();
                        break;

                    case Types.CLOB:
                        Clob clob = rs.getClob(i);
                        provider.defaultSerializeValue(clob.getCharacterStream(), jgen);
                        clob.free();
                        break;

                    case Types.ARRAY:
                        throw new RuntimeException("ResultSetSerializer not yet implemented for SQL type ARRAY");

                    case Types.STRUCT:
                        throw new RuntimeException("ResultSetSerializer not yet implemented for SQL type STRUCT");

                    case Types.DISTINCT:
                        throw new RuntimeException("ResultSetSerializer not yet implemented for SQL type DISTINCT");

                    case Types.REF:
                        throw new RuntimeException("ResultSetSerializer not yet implemented for SQL type REF");

                    case Types.JAVA_OBJECT:
                    default:
                        provider.defaultSerializeValue(rs.getObject(i + 1), jgen);
                        break;
                    }
                }

                jgen.writeEndObject();
            }

            jgen.writeEndArray();

        } catch (SQLException e) {
            throw new ResultSetSerializerException(e);
        }
    }
}
share|improve this answer

You could use jOOQ for the job. You don't have to use all of jOOQ's features to take advantage of some useful JDBC extensions. In this case, simply write:

String json = DSL.using(connection).fetch(resultSet).formatJSON();

Relevant API methods used are:

The resulting formatting will look like this:

{"fields":[{"name":"field-1","type":"type-1"},
           {"name":"field-2","type":"type-2"},
           ...,
           {"name":"field-n","type":"type-n"}],
 "records":[[value-1-1,value-1-2,...,value-1-n],
            [value-2-1,value-2-2,...,value-2-n]]}

You could also create your own formatting rather easily, through Result.map(RecordMapper)

This essentially does the same as your code, circumventing the generation of JSON objects, "streaming" directly into a StringBuilder. I'd say that the performance overhead should be negligible in both cases, though.

share|improve this answer
    
This is awesome but I'm having troubles in parsing the resulting string. When some of the values contain a quotation mark the parser can't correctly work: I think that quotation marks inside values should be escaped (" to \") in order to create a valid JSON string. Is this a bug of the formatJSON() function? Or am I missing something? –  Oneiros Jan 21 at 16:52
    
@Oneiros: jOOQ should correctly escape those quotation marks... Best ask a new question (with details) or report a bug: github.com/jOOQ/jOOQ/issues/new –  Lukas Eder Jan 21 at 17:17

In addition to suggestions made by @Jim Cook. One other thought is to use a switch instead of if-elses:

while(rs.next()) {
  int numColumns = rsmd.getColumnCount();
  JSONObject obj = new JSONObject();

  for( int i=1; i<numColumns+1; i++) {
    String column_name = rsmd.getColumnName(i);

    switch( rsmd.getColumnType( i ) ) {
      case java.sql.Types.ARRAY:
        obj.put(column_name, rs.getArray(column_name));     break;
      case java.sql.Types.BIGINT:
        obj.put(column_name, rs.getInt(column_name));       break;
      case java.sql.Types.BOOLEAN:
        obj.put(column_name, rs.getBoolean(column_name));   break;
      case java.sql.Types.BLOB:
        obj.put(column_name, rs.getBlob(column_name));      break;
      case java.sql.Types.DOUBLE:
        obj.put(column_name, rs.getDouble(column_name));    break;
      case java.sql.Types.FLOAT:
        obj.put(column_name, rs.getFloat(column_name));     break;
      case java.sql.Types.INTEGER:
        obj.put(column_name, rs.getInt(column_name));       break;
      case java.sql.Types.NVARCHAR:
        obj.put(column_name, rs.getNString(column_name));   break;
      case java.sql.Types.VARCHAR:
        obj.put(column_name, rs.getString(column_name));    break;
      case java.sql.Types.TINYINT:
        obj.put(column_name, rs.getInt(column_name));       break;
      case java.sql.Types.SMALLINT:
        obj.put(column_name, rs.getInt(column_name));       break;
      case java.sql.Types.DATE:
        obj.put(column_name, rs.getDate(column_name));      break;
      case java.sql.Types.TIMESTAMP:
        obj.put(column_name, rs.getTimestamp(column_name)); break;
      default:
        obj.put(column_name, rs.getObject(column_name));    break;
    }
  }

  json.put(obj);
}
share|improve this answer
1  
Looping backwards (comparing the index zero) is also faster (than comparing the index to an expression). –  Dave Jarvis Aug 1 '12 at 0:06

Just as a heads up, the if/then loop is more efficient than the switch for enums. If you have the switch against the raw enum integer, then it's more efficient, but against the variable, if/then is more efficient, at least for Java 5, 6, and 7.

I.e., for some reason (after some performance tests)

if (ordinalValue == 1) {
   ...
} else (ordinalValue == 2 {
   ... 
}

is faster than

switch( myEnum.ordinal() ) {
    case 1:
       ...
       break;
    case 2:
       ...
       break;
}

I see that a few people are doubting me, so I'll post code here that you can run yourself to see the difference, along with output I have from Java 7. The results of the following code with 10 enum values are as follows. Note the key here is the if/then using an integer value comparing against ordinal constants of the enum, vs. the switch with an enum's ordinal value against the raw int ordinal values, vs. a switch with the enum against each enum name. The if/then with an integer value beat out both other switches, although the last switch was a little faster than the first switch, it was not faster than the if/else.

If / else took 23 ms
Switch took 45 ms
Switch 2 took 30 ms
Total matches: 3000000

package testing;

import java.util.Random;

enum TestEnum {
    FIRST,
    SECOND,
    THIRD,
    FOURTH,
    FIFTH,
    SIXTH,
    SEVENTH,
    EIGHTH,
    NINTH,
    TENTH
}

public class SwitchTest {
    private static int LOOP = 1000000;
    private static Random r = new Random();
    private static int SIZE = TestEnum.values().length;

    public static void main(String[] args) {
        long time = System.currentTimeMillis();
        int matches = 0;
        for (int i = 0; i < LOOP; i++) {
            int j = r.nextInt(SIZE);
            if (j == TestEnum.FIRST.ordinal()) {
                matches++;
            } else if (j == TestEnum.SECOND.ordinal()) {
                matches++;
            } else if (j == TestEnum.THIRD.ordinal()) {
                matches++;
            } else if (j == TestEnum.FOURTH.ordinal()) {
                matches++;
            } else if (j == TestEnum.FIFTH.ordinal()) {
                matches++;
            } else if (j == TestEnum.SIXTH.ordinal()) {
                matches++;
            } else if (j == TestEnum.SEVENTH.ordinal()) {
                matches++;
            } else if (j == TestEnum.EIGHTH.ordinal()) {
                matches++;
            } else if (j == TestEnum.NINTH.ordinal()) {
                matches++;
            } else {
                matches++;
            }
        }
        System.out.println("If / else took "+(System.currentTimeMillis() - time)+" ms");
        time = System.currentTimeMillis();
        for (int i = 0; i < LOOP; i++) {
            TestEnum te = TestEnum.values()[r.nextInt(SIZE)];
            switch (te.ordinal()) {
                case 0:
                    matches++;
                    break;
                case 1:
                    matches++;
                    break;
                case 2:
                    matches++;
                    break;
                case 3:
                    matches++;
                    break;
                case 4:
                    matches++;
                    break;
                case 5:
                    matches++;
                    break;
                case 6:
                    matches++;
                    break;
                case 7:
                    matches++;
                    break;
                case 8:
                    matches++;
                    break;
                case 9:
                    matches++;
                    break;
                default:
                    matches++;
                    break;
            }
        }
        System.out.println("Switch took "+(System.currentTimeMillis() - time)+" ms");
        time = System.currentTimeMillis();
        for (int i = 0; i < LOOP; i++) {
            TestEnum te = TestEnum.values()[r.nextInt(SIZE)];
            switch (te) {
                case FIRST:
                    matches++;
                    break;
                case SECOND:
                    matches++;
                    break;
                case THIRD:
                    matches++;
                    break;
                case FOURTH:
                    matches++;
                    break;
                case FIFTH:
                    matches++;
                    break;
                case SIXTH:
                    matches++;
                    break;
                case SEVENTH:
                    matches++;
                    break;
                case EIGHTH:
                    matches++;
                    break;
                case NINTH:
                    matches++;
                    break;
                default:
                    matches++;
                    break;
            }
        }
        System.out.println("Switch 2 took "+(System.currentTimeMillis() - time)+" ms");     
        System.out.println("Total matches: "+matches);
    }
}
share|improve this answer

If anyone plan to use this implementation, You might wanna check this out and this

This is my version of that convertion code:

public class ResultSetConverter {
public static JSONArray convert(ResultSet rs) throws SQLException,
        JSONException {
    JSONArray json = new JSONArray();
    ResultSetMetaData rsmd = rs.getMetaData();
    int numColumns = rsmd.getColumnCount();
    while (rs.next()) {

        JSONObject obj = new JSONObject();

        for (int i = 1; i < numColumns + 1; i++) {
            String column_name = rsmd.getColumnName(i);

            if (rsmd.getColumnType(i) == java.sql.Types.ARRAY) {
                obj.put(column_name, rs.getArray(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.BIGINT) {
                obj.put(column_name, rs.getLong(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.REAL) {
                obj.put(column_name, rs.getFloat(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.BOOLEAN) {
                obj.put(column_name, rs.getBoolean(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.BLOB) {
                obj.put(column_name, rs.getBlob(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.DOUBLE) {
                obj.put(column_name, rs.getDouble(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.FLOAT) {
                obj.put(column_name, rs.getDouble(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.INTEGER) {
                obj.put(column_name, rs.getInt(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.NVARCHAR) {
                obj.put(column_name, rs.getNString(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.VARCHAR) {
                obj.put(column_name, rs.getString(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.CHAR) {
                obj.put(column_name, rs.getString(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.NCHAR) {
                obj.put(column_name, rs.getNString(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.LONGNVARCHAR) {
                obj.put(column_name, rs.getNString(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.LONGVARCHAR) {
                obj.put(column_name, rs.getString(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.TINYINT) {
                obj.put(column_name, rs.getByte(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.SMALLINT) {
                obj.put(column_name, rs.getShort(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.DATE) {
                obj.put(column_name, rs.getDate(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.TIME) {
                obj.put(column_name, rs.getTime(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.TIMESTAMP) {
                obj.put(column_name, rs.getTimestamp(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.BINARY) {
                obj.put(column_name, rs.getBytes(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.VARBINARY) {
                obj.put(column_name, rs.getBytes(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.LONGVARBINARY) {
                obj.put(column_name, rs.getBinaryStream(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.BIT) {
                obj.put(column_name, rs.getBoolean(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.CLOB) {
                obj.put(column_name, rs.getClob(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.NUMERIC) {
                obj.put(column_name, rs.getBigDecimal(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.DECIMAL) {
                obj.put(column_name, rs.getBigDecimal(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.DATALINK) {
                obj.put(column_name, rs.getURL(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.REF) {
                obj.put(column_name, rs.getRef(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.STRUCT) {
                obj.put(column_name, rs.getObject(column_name)); // must be a custom mapping consists of a class that implements the interface SQLData and an entry in a java.util.Map object.
            } else if (rsmd.getColumnType(i) == java.sql.Types.DISTINCT) {
                obj.put(column_name, rs.getObject(column_name)); // must be a custom mapping consists of a class that implements the interface SQLData and an entry in a java.util.Map object.
            } else if (rsmd.getColumnType(i) == java.sql.Types.JAVA_OBJECT) {
                obj.put(column_name, rs.getObject(column_name));
            } else {
                obj.put(column_name, rs.getString(i));
            }
        }

        json.put(obj);
    }

    return json;
}
}
share|improve this answer

the other way , here I have used ArrayList and Map, so its not call json object row by row but after iteration of resultset finished :

 List<Map<String, String>> list = new ArrayList<Map<String, String>>();

  ResultSetMetaData rsMetaData = rs.getMetaData();  


      while(rs.next()){

              Map map = new HashMap();
              for (int i = 1; i <= rsMetaData.getColumnCount(); i++) {
                 String key = rsMetaData.getColumnName(i);

                  String value = null;

               if (rsmd.getColumnType(i) == java.sql.Types.VARCHAR) {
                           value = rs.getString(key);
               } else if(rsmd.getColumnType(i)==java.sql.Types.BIGINT)                         
                             value = rs.getLong(key);
               }                  


                    map.put(key, value);
              }
              list.add(map);


    }


     json.put(list);    
share|improve this answer

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